MySQL 9.3 Reference Manual Including MySQL NDB Cluster 9.3
CHECK TABLEtbl_name[,tbl_name] ... [option] ...option: { FOR UPGRADE | QUICK | FAST | MEDIUM | EXTENDED | CHANGED }
CHECK TABLE checks a table or
tables for errors. CHECK TABLE
can also check views for problems, such as tables that are
referenced in the view definition that no longer exist.
To check a table, you must have some privilege for it.
CHECK TABLE works for
InnoDB,
MyISAM,
ARCHIVE, and
CSV tables.
Before running CHECK TABLE on
InnoDB tables, see
CHECK TABLE Usage Notes for InnoDB Tables.
CHECK TABLE is supported for
partitioned tables, and you can use ALTER TABLE ...
CHECK PARTITION to check one or more partitions; for
more information, see Section 15.1.10, “ALTER TABLE Statement”, and
Section 26.3.4, “Maintenance of Partitions”.
CHECK TABLE ignores virtual
generated columns that are not indexed.
CHECK TABLE returns a result
set with the columns shown in the following table.
| Column | Value |
|---|---|
Table |
The table name |
Op |
Always check |
Msg_type |
status, error,
info, note, or
warning |
Msg_text |
An informational message |
The statement might produce many rows of information for each
checked table. The last row has a Msg_type
value of status and the
Msg_text normally should be
OK. Table is already up to
date means that the storage engine for the table
indicated that there was no need to check the table.
The FOR UPGRADE option checks whether the
named tables are compatible with the current version of MySQL.
With FOR UPGRADE, the server checks each
table to determine whether there have been any incompatible
changes in any of the table's data types or indexes since the
table was created. If not, the check succeeds. Otherwise, if
there is a possible incompatibility, the server runs a full
check on the table (which might take some time).
Incompatibilities might occur because the storage format for a data type has changed or because its sort order has changed. Our aim is to avoid these changes, but occasionally they are necessary to correct problems that would be worse than an incompatibility between releases.
FOR UPGRADE discovers these
incompatibilities:
The indexing order for end-space in
TEXT columns for
InnoDB and MyISAM
tables changed between MySQL 4.1 and 5.0.
The storage method of the new
DECIMAL data type changed
between MySQL 5.0.3 and 5.0.5.
Changes are sometimes made to character sets or collations that require table indexes to be rebuilt. For details about such changes, see Section 3.5, “Changes in MySQL 9.3”. For information about rebuilding tables, see Section 3.14, “Rebuilding or Repairing Tables or Indexes”.
MySQL 9.3 does not support the 2-digit
YEAR(2) data type permitted
in older versions of MySQL. For tables containing
YEAR(2) columns,
CHECK TABLE recommends
REPAIR TABLE, which
converts 2-digit YEAR(2)
columns to 4-digit YEAR
columns.
Trigger creation time is maintained.
A table is reported as needing a rebuild if it contains
old temporal columns in pre-5.6.4 format
(TIME,
DATETIME, and
TIMESTAMP columns without
support for fractional seconds precision). This helps the
MySQL upgrade procedure detect and upgrade tables
containing old temporal columns.
Warnings are issued for tables that use nonnative partitioning because nonnative partitioning is removed in MySQL 9.3. See Chapter 26, Partitioning.
The following table shows the other check options that can be given. These options are passed to the storage engine, which may use or ignore them.
| Type | Meaning |
|---|---|
QUICK |
Do not scan the rows to check for incorrect links. Applies to
InnoDB and MyISAM
tables and views. |
FAST |
Check only tables that have not been closed properly. Ignored for
InnoDB; applies only to
MyISAM tables and views. |
CHANGED |
Check only tables that have been changed since the last check or that
have not been closed properly. Ignored for
InnoDB; applies only to
MyISAM tables and views. |
MEDIUM |
Scan rows to verify that deleted links are valid. This also calculates a
key checksum for the rows and verifies this with a
calculated checksum for the keys. Ignored for
InnoDB; applies only to
MyISAM tables and views. |
EXTENDED |
Do a full key lookup for all keys for each row. This ensures that the
table is 100% consistent, but takes a long time. Ignored
for InnoDB; applies only to
MyISAM tables and views. |
You can combine check options, as in the following example that does a quick check on the table to determine whether it was closed properly:
CHECK TABLE test_table FAST QUICK;
If CHECK TABLE finds no
problems with a table that is marked as
“corrupted” or “not closed
properly”, CHECK TABLE
may remove the mark.
If a table is corrupted, the problem is most likely in the indexes and not in the data part. All of the preceding check types check the indexes thoroughly and should thus find most errors.
To check a table that you assume is okay, use no check options
or the QUICK option. The latter should be
used when you are in a hurry and can take the very small risk
that QUICK does not find an error in the
data file. (In most cases, under normal usage, MySQL should
find any error in the data file. If this happens, the table is
marked as “corrupted” and cannot be used until it
is repaired.)
FAST and CHANGED are
mostly intended to be used from a script (for example, to be
executed from cron) to check tables
periodically. In most cases, FAST is to be
preferred over CHANGED. (The only case when
it is not preferred is when you suspect that you have found a
bug in the MyISAM code.)
EXTENDED is to be used only after you have
run a normal check but still get errors from a table when
MySQL tries to update a row or find a row by key. This is very
unlikely if a normal check has succeeded.
Use of CHECK
TABLE ... EXTENDED might influence execution plans
generated by the query optimizer.
Some problems reported by CHECK
TABLE cannot be corrected automatically:
Found row where the auto_increment column has the
value 0.
This means that you have a row in the table where the
AUTO_INCREMENT index column contains
the value 0. (It is possible to create a row where the
AUTO_INCREMENT column is 0 by
explicitly setting the column to 0 with an
UPDATE statement.)
This is not an error in itself, but could cause trouble if
you decide to dump the table and restore it or do an
ALTER TABLE on the table.
In this case, the AUTO_INCREMENT column
changes value according to the rules of
AUTO_INCREMENT columns, which could
cause problems such as a duplicate-key error.
To get rid of the warning, execute an
UPDATE statement to set the
column to some value other than 0.
The following notes apply to
InnoDB tables:
If CHECK TABLE encounters a
corrupt page, the server exits to prevent error
propagation (Bug #10132). If the corruption occurs in a
secondary index but table data is readable, running
CHECK TABLE can still cause
a server exit.
If CHECK TABLE encounters a
corrupted DB_TRX_ID or
DB_ROLL_PTR field in a clustered index,
CHECK TABLE can cause
InnoDB to access an invalid undo log
record, resulting in an
MVCC-related server exit.
If CHECK TABLE encounters
errors in InnoDB tables or indexes, it
reports an error, and usually marks the index and
sometimes marks the table as corrupted, preventing further
use of the index or table. Such errors include an
incorrect number of entries in a secondary index or
incorrect links.
If CHECK TABLE finds an
incorrect number of entries in a secondary index, it
reports an error but does not cause a server exit or
prevent access to the file.
CHECK TABLE surveys the
index page structure, then surveys each key entry. It does
not validate the key pointer to a clustered record or
follow the path for BLOB
pointers.
When an InnoDB table is stored in its
own
.ibd
file, the first 3
pages of the
.ibd file contain header information
rather than table or index data. The
CHECK TABLE statement does
not detect inconsistencies that affect only the header
data. To verify the entire contents of an
InnoDB .ibd file,
use the innochecksum command.
When running CHECK TABLE on
large InnoDB tables, other threads may
be blocked during CHECK
TABLE execution. To avoid timeouts, the
semaphore wait threshold (600 seconds) is extended by 2
hours (7200 seconds) for CHECK
TABLE operations. If InnoDB
detects semaphore waits of 240 seconds or more, it starts
printing InnoDB monitor output to the
error log. If a lock request extends beyond the semaphore
wait threshold, InnoDB aborts the
process. To avoid the possibility of a semaphore wait
timeout entirely, run
CHECK TABLE
QUICK instead of CHECK
TABLE.
CHECK TABLE functionality
for InnoDB SPATIAL
indexes includes an R-tree validity check and a check to
ensure that the R-tree row count matches the clustered
index.
CHECK TABLE supports
secondary indexes on virtual generated columns, which are
supported by InnoDB.
InnoDB supports parallel
clustered index reads, which can improve
CHECK TABLE performance.
InnoDB reads the clustered index twice
during a CHECK TABLE
operation. The second read can be performed in parallel.
The
innodb_parallel_read_threads
session variable must be set to a value greater than 1 for
parallel clustered index reads to occur. The actual number
of threads used to perform a parallel clustered index read
is determined by the
innodb_parallel_read_threads
setting or the number of index subtrees to scan, whichever
is smaller.
The following notes apply to
MyISAM tables:
CHECK TABLE updates key
statistics for MyISAM tables.
If CHECK TABLE output does
not return OK or Table is
already up to date, you should normally run a
repair of the table. See
Section 9.6, “MyISAM Table Maintenance and Crash Recovery”.
If none of the CHECK TABLE
options QUICK,
MEDIUM, or EXTENDED
are specified, the default check type for dynamic-format
MyISAM tables is
MEDIUM. This has the same result as
running myisamchk --medium-check
tbl_name on the
table. The default check type also is
MEDIUM for static-format
MyISAM tables, unless
CHANGED or FAST is
specified. In that case, the default is
QUICK. The row scan is skipped for
CHANGED and FAST
because the rows are very seldom corrupted.